doc/usage/cmd/mtrr.rst - platform/external/u-boot - Gitiles

 .. SPDX-License-Identifier: GPL-2.0+:

 mtrr command
 ============

 Synopis
 -------

     mtrr [list]
     mtrr set <reg> <type> <start> <size>
     mtrr disable <reg>
     mtrr enable


 Description
 -----------

 The *mtrr* command is used to dump the Memory Type Range Registers (MTRRs) on
 an x86 machine. These register control cache behaviour in selected memory
 ranges.

 Note that the number of registers can vary between CPUs.


 mtrr [list]
 ~~~~~~~~~~~

 List the MTRRs. The table shows the following information:

 Reg
     Register number (the first is register 0)

 Valid
     Shows Y if the register is valid (has bit 11 set), N if not

 Write-type
     Shows the behaviour when writing to the memory region. The types are
     abbreviated to fit a reasonable line length. Valid types shown below.

     ======  ==============  ====================================================
     Value   Type            Meaning
     ======  ==============  ====================================================
     0       Uncacheable     Skip cache and write directly to memory
     1       Combine         Multiple writes can be combined into one transaction
     4       Through         Update cache and also write to memory
     5       Protect         Writes are prohibited
     6       Back            Update cache but don't write to memory
     ======  ==============  ====================================================

 Base
     Base memory address from which the register controls behaviour

 Mask
     Mask value, which also indicates the size

 Size
     Length of memory region within which the register controls behaviour


 mtrr set
 ~~~~~~~~

 This sets the value of a particular MTRR. Parameters are:

 reg
     Register number to set, with 0 being the first

 type
     Access type to set. See Write-type above for valid types. This uses the name
     rather than its numeric value.

 start
     Base memory address from which the register should control behaviour

 size
     Length of memory region within which the register controls behaviour


 mtrr disable
 ~~~~~~~~~~~~

 This disables a particular register, by clearing its `valid` bit (11).


 mtrr enable
 ~~~~~~~~~~~

 This enables a particular register, by setting its `valid` bit (11).


 Example
 -------

 This shows disabling and enabling an MTRR, as well as setting its type::

     => mtrr
     CPU 0:
     Reg Valid Write-type   Base   ||        Mask   ||        Size   ||
     0   Y     Back         0000000000000000 0000000f80000000 0000000080000000
     1   Y     Back         0000000080000000 0000000fe0000000 0000000020000000
     2   Y     Back         00000000a0000000 0000000ff0000000 0000000010000000
     3   Y     Uncacheable  00000000ad000000 0000000fff000000 0000000001000000
     4   Y     Uncacheable  00000000ae000000 0000000ffe000000 0000000002000000
     5   Y     Combine      00000000d0000000 0000000ff0000000 0000000010000000
     6   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     7   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     8   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     9   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     => mtrr d 5
     => mtrr
     CPU 0:
     Reg Valid Write-type   Base   ||        Mask   ||        Size   ||
     0   Y     Back         0000000000000000 0000000f80000000 0000000080000000
     1   Y     Back         0000000080000000 0000000fe0000000 0000000020000000
     2   Y     Back         00000000a0000000 0000000ff0000000 0000000010000000
     3   Y     Uncacheable  00000000ad000000 0000000fff000000 0000000001000000
     4   Y     Uncacheable  00000000ae000000 0000000ffe000000 0000000002000000
     5   N     Combine      00000000d0000000 0000000ff0000000 0000000010000000
     6   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     7   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     8   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     9   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     => mtrr e 5
     => mtrr
     CPU 0:
     Reg Valid Write-type   Base   ||        Mask   ||        Size   ||
     0   Y     Back         0000000000000000 0000000f80000000 0000000080000000
     1   Y     Back         0000000080000000 0000000fe0000000 0000000020000000
     2   Y     Back         00000000a0000000 0000000ff0000000 0000000010000000
     3   Y     Uncacheable  00000000ad000000 0000000fff000000 0000000001000000
     4   Y     Uncacheable  00000000ae000000 0000000ffe000000 0000000002000000
     5   Y     Combine      00000000d0000000 0000000ff0000000 0000000010000000
     6   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     7   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     8   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     9   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     => mtrr set 5 Uncacheable d0000000 10000000
     => mtrr
     CPU 0:
     Reg Valid Write-type   Base   ||        Mask   ||        Size   ||
     0   Y     Back         0000000000000000 0000000f80000000 0000000080000000
     1   Y     Back         0000000080000000 0000000fe0000000 0000000020000000
     2   Y     Back         00000000a0000000 0000000ff0000000 0000000010000000
     3   Y     Uncacheable  00000000ad000000 0000000fff000000 0000000001000000
     4   Y     Uncacheable  00000000ae000000 0000000ffe000000 0000000002000000
     5   Y     Uncacheable  00000000d0000000 0000000ff0000000 0000000010000000
     6   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     7   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     8   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     9   N     Uncacheable  0000000000000000 0000000000000000 0000001000000000
     =>
	.. SPDX-License-Identifier: GPL-2.0+:

	mtrr command
	============

	Synopis
	-------

	mtrr [list]
	mtrr set <reg> <type> <start> <size>
	mtrr disable <reg>
	mtrr enable


	Description
	-----------

	The mtrr command is used to dump the Memory Type Range Registers (MTRRs) on
	an x86 machine. These register control cache behaviour in selected memory
	ranges.

	Note that the number of registers can vary between CPUs.


	mtrr [list]
	~~~~~~~~~~~

	List the MTRRs. The table shows the following information:

	Reg
	Register number (the first is register 0)

	Valid
	Shows Y if the register is valid (has bit 11 set), N if not

	Write-type
	Shows the behaviour when writing to the memory region. The types are
	abbreviated to fit a reasonable line length. Valid types shown below.

	====== ============== ====================================================
	Value Type Meaning
	====== ============== ====================================================
	0 Uncacheable Skip cache and write directly to memory
	1 Combine Multiple writes can be combined into one transaction
	4 Through Update cache and also write to memory
	5 Protect Writes are prohibited
	6 Back Update cache but don't write to memory
	====== ============== ====================================================

	Base
	Base memory address from which the register controls behaviour

	Mask
	Mask value, which also indicates the size

	Size
	Length of memory region within which the register controls behaviour


	mtrr set
	~~~~~~~~

	This sets the value of a particular MTRR. Parameters are:

	reg
	Register number to set, with 0 being the first

	type
	Access type to set. See Write-type above for valid types. This uses the name
	rather than its numeric value.

	start
	Base memory address from which the register should control behaviour

	size
	Length of memory region within which the register controls behaviour


	mtrr disable
	~~~~~~~~~~~~

	This disables a particular register, by clearing its `valid` bit (11).


	mtrr enable
	~~~~~~~~~~~

	This enables a particular register, by setting its `valid` bit (11).


	Example
	-------

	This shows disabling and enabling an MTRR, as well as setting its type::

	=> mtrr
	CPU 0:
	Reg Valid Write-type Base \|\| Mask \|\| Size \|\|
	0 Y Back 0000000000000000 0000000f80000000 0000000080000000
	1 Y Back 0000000080000000 0000000fe0000000 0000000020000000
	2 Y Back 00000000a0000000 0000000ff0000000 0000000010000000
	3 Y Uncacheable 00000000ad000000 0000000fff000000 0000000001000000
	4 Y Uncacheable 00000000ae000000 0000000ffe000000 0000000002000000
	5 Y Combine 00000000d0000000 0000000ff0000000 0000000010000000
	6 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	7 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	8 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	9 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	=> mtrr d 5
	=> mtrr
	CPU 0:
	Reg Valid Write-type Base \|\| Mask \|\| Size \|\|
	0 Y Back 0000000000000000 0000000f80000000 0000000080000000
	1 Y Back 0000000080000000 0000000fe0000000 0000000020000000
	2 Y Back 00000000a0000000 0000000ff0000000 0000000010000000
	3 Y Uncacheable 00000000ad000000 0000000fff000000 0000000001000000
	4 Y Uncacheable 00000000ae000000 0000000ffe000000 0000000002000000
	5 N Combine 00000000d0000000 0000000ff0000000 0000000010000000
	6 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	7 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	8 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	9 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	=> mtrr e 5
	=> mtrr
	CPU 0:
	Reg Valid Write-type Base \|\| Mask \|\| Size \|\|
	0 Y Back 0000000000000000 0000000f80000000 0000000080000000
	1 Y Back 0000000080000000 0000000fe0000000 0000000020000000
	2 Y Back 00000000a0000000 0000000ff0000000 0000000010000000
	3 Y Uncacheable 00000000ad000000 0000000fff000000 0000000001000000
	4 Y Uncacheable 00000000ae000000 0000000ffe000000 0000000002000000
	5 Y Combine 00000000d0000000 0000000ff0000000 0000000010000000
	6 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	7 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	8 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	9 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	=> mtrr set 5 Uncacheable d0000000 10000000
	=> mtrr
	CPU 0:
	Reg Valid Write-type Base \|\| Mask \|\| Size \|\|
	0 Y Back 0000000000000000 0000000f80000000 0000000080000000
	1 Y Back 0000000080000000 0000000fe0000000 0000000020000000
	2 Y Back 00000000a0000000 0000000ff0000000 0000000010000000
	3 Y Uncacheable 00000000ad000000 0000000fff000000 0000000001000000
	4 Y Uncacheable 00000000ae000000 0000000ffe000000 0000000002000000
	5 Y Uncacheable 00000000d0000000 0000000ff0000000 0000000010000000
	6 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	7 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	8 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	9 N Uncacheable 0000000000000000 0000000000000000 0000001000000000
	=>